Floor box and method of installing

ABSTRACT

A floor box for housing electrical components includes a bottom and a plurality of walls extending from the bottom to at least partially define an interior and to at least partially define a central opening accessible to a user. A top plate having an inner portion at least partially defining a first wiring compartment facing the central opening and a second wiring compartment facing the central opening is connected to at least one of the plurality of walls.

RELATED APPLICATIONS

This application is a continuation of U.S. application Ser. No.15/131,266, filed Apr. 18, 2016, which is claims priority to U.S.Provisional Application Ser. No. 62/149,033, filed Apr. 17, 2015, thedisclosures of which are incorporated herein by reference in theirentirety.

FIELD

Various exemplary embodiments relate to floor boxes, including recessedand raised access floor boxes.

BACKGROUND

Electrical floor boxes are known in the art for housing electricalcomponents such as outlets or receptacle underneath a floor surface. Thefloor box can include separate compartments for power, data, andcommunication receptacles. Often the floor box has a hinged cover thatpivots from a closed position to an open position. Many floor boxes havea top surface that is raised from the floor creating a lip thatinterferes with the use of the box.

SUMMARY

According to an exemplary embodiment, a floor box for housing electricalcomponents includes a bottom and a plurality of walls extending from thebottom to at least partially define an interior and to at leastpartially define a central opening accessible to a user. A top platehaving an inner portion at least partially defining a first wiringcompartment facing the central opening and a second wiring compartmentfacing the central opening is connected to at least one of the pluralityof walls. A first panel is positioned in front of the first wiringcompartment. A second panel is positioned in front of the second wiringcompartment. A conductor conduit extends across the central openingbetween the first compartment and the second compartment.

According to another exemplary embodiment, a floor box for housingelectrical components includes a bottom and a plurality of wallsextending from the bottom to at least partially define an interior andto at least partially define a central opening accessible to a user. Atop plate having an inner portion at least partially defining a firstwiring compartment facing the central opening and a second wiringcompartment facing the central opening is connected to at least one ofthe plurality of walls. A first panel is positioned in front of thefirst wiring compartment. A second panel is positioned in front of thesecond wiring compartment. A divider is positioned in the interiorbetween the first compartment and the second compartment.

Another exemplary embodiment is directed to a method of installing afloor box. A floor box having a bottom, a plurality of walls extendingfrom the bottom, a top plate connected to at least one of the walls, afirst installation cover positioned over the top plate and a secondinstallation cover releasably connected to the first installation ispositioned in an open space. The second installation cover is removedfrom first installation cover. The first installation cover is removedfrom the floor box.

BRIEF DESCRIPTION OF THE DRAWINGS

The aspects and features of various exemplary embodiments will be moreapparent from the description of those exemplary embodiments taken withreference to the accompanying drawings, in which:

The following is a brief description of the drawings in which:

FIG. 1 is an exploded view of an exemplary floor box and cover assembly;

FIG. 2 is a perspective view of an exemplary 2-gang floor box;

FIG. 3 is a perspective view of an exemplary 4-gang floor box;

FIG. 4 is a partial, top perspective view of an exemplary conductorconduit in a floor box;

FIG. 5 is a partial, top perspective view of the conductor conduit ofFIG. 4 with the conduit transparent;

FIG. 6 is an assembly view of an exemplary 4-gang floor box with anexemplary divider and faceplate;

FIG. 7 is a perspective view of the faceplate of FIG. 6;

FIG. 8 is a perspective view of the divider of FIG. 6;

FIG. 9 is an assembly view of the divider and faceplate of FIGS. 6-8;

FIG. 10 is a perspective view of an exemplary 6-gang floor box;

FIG. 11 is a perspective view of the 6-gang floor box of FIG. 10 withthe top plate removed;

FIG. 12 is a front view of an exemplary adjustable divider;

FIG. 13 is a perspective view of an exemplary 8 to 10-gang floor box;

FIG. 14 is a perspective view of the floor box of FIG. 13 with variouswiring compartments;

FIG. 15 is a partial, top perspective view of the exemplary wiringcompartments of FIG. 14 showing the dividers;

FIG. 16 is perspective view of the divider of FIG. 15;

FIG. 17 is a perspective view of another exemplary divider;

FIG. 18 is a perspective view of another exemplary divider;

FIG. 19 is a perspective view of the divider of FIG. 17 used in a 2-gangfloor box;

FIG. 20 is a perspective view of the divider of FIG. 18 used in a 2-gangfloor box;

FIG. 21 is perspective view of an exemplary 2-gang floor box with anexemplary knock plate and optional conduit;

FIG. 22 is a partial perspective view of a floor box having a top platewith a can for receiving an exemplary leveler;

FIG. 23 is a sectional view of an exemplary floor box, leveler, andcover assembly;

FIG. 24 is a perspective, exploded view of an exemplary 2-gang floor boxwith exemplary first and second covers;

FIG. 25 is a perspective, exploded view of an exemplary 4-gang floor boxwith a first cover; and

FIG. 26 is a perspective view of an exemplary 4-gang floor box in acarpet installation.

DETAILED DESCRIPTION OF EXEMPLARY EMBODIMENTS

FIG. 1 shows an exemplary embodiment of a floor box 10 and a coverassembly 12 configured to connect to the floor box 10. The floor box 10is intended to be mounted in the floor of a building and to house one ormore electrical components that are accessible to a user through thecover 12. The electrical components can include various wiring devicessuch as electrical receptacles, video connections, phone connections,data connections, or other power or communication devices. The floor box10 can have a variety of configurations that includes different sizesand shapes and different internal and external components. The differentcomponents can be modular to create different configurations within asingle floor box 10. Different covers 12 can also be used with differentfloor boxes 10. As would be understood by one of ordinary skill in theart, the floor box 10 can be classified by the number of electricalcomponents or gangs that can be placed into the floor box 10.

FIG. 2 shows an exemplary embodiment of a 2-gang floor box 20 having abottom 22 and four side walls 24 at least partially defining a centralopening 26. The central opening 26 is an area that allows a user toaccess one or more of the electrical components positioned in the floorbox, or for example access electrical components without removing anystructural members to connect a device or a load to the electricalcomponents. The side walls 24 extend from the bottom 22 to an upper edgeto define a height or depth of the floor box 20 and at least partiallydefine the height of the central opening 26. The side walls 24 and thebottom wall 22 can include one or more knockouts 28 that can be removedto pass conductors into the floor box 20. A mounting flange 30 extendsfrom one or more of the side walls 24. When installing the floor box 20,the mounting flange 30 can be positioned on an adjacent surface and oneor more fasteners can extend through the mounting flange 30 and connectto the adjacent surface. The exemplary 2-gang floor box 20 has sidewalls 24 that are rectangular and oriented at substantially 90 degreeangles to one another to give an overall substantially rectangularconfiguration to the floor box 20. In alternative configurations, thebottom 22 and side walls 24 can have different sizes and shapes,including curvilinear shapes, and have different orientations to changethe overall configuration of the floor box 20 to different curvilinearand rectilinear shapes.

One or more protrusions 32 can extend from one or more of the bottom andthe side walls. The protrusion 32 can be used to configure differentinternal components. The protrusions 32 can be integrally formed withthe bottom 22 or side walls 24, or they can be formed separately andconnected to the bottom 22 or side walls 24 as needed. In theembodiments where the protrusions 32 are separately formed, surfacefeatures can be provided in the bottom 22 or side walls 24 to receivethe protrusions 32. In an exemplary embodiment, a pair of protrusions 32are positioned adjacent one another with a slot formed therebetween. Theprotrusions 32 are shown with an angled or rounded front, a back wall,and a pair of side walls. The back wall and side walls can engage orposition different components. Notches can also be formed in theprotrusions 32 to receive components. Other sizes, shapes, andconfigurations of protrusions 32 can also be used.

A top plate 34 is connected to one or more of the side walls 24. The topplate 34 includes an outer portion 36 and one or more inner portions 38.The outer portion 36 has an upper surface that surrounds an upper edgeof the side walls 24. The inner portion 38 extends from the outerportion 36 to cover the top of one or more wiring compartments 40 atleast partially defined by the top plate 34. In an exemplary embodiment,the inner portion 38 is recessed from the outer portion 36. One or morefront panels 42 extends from the inner portion 38 to cover the front ofa wiring compartment 40. The front panels 42 can be formed integrallywith the top plate 34 or formed separately and connected to the topplate 34, for example through mechanical fasteners such as clips,screws, snap-fits, etc. FIG. 2 shows an exemplary embodiment where thefront panels 42 are positioned in the slots formed by the protrusions 32and extend from the bottom 22 and connected to the inner portion 38 ofthe top plate by fasteners. With the 2-gang floor box 20 two frontpanels 42 are used to form two wiring compartments 40.

A conductor conduit 44 extends between the wiring compartments 40 acrossthe central opening 26. The conductor conduit 44 is positioned at anouter edge of the central opening 26 and used to run conductors betweenthe wiring compartments 40 at either end of the floor box 20. In anexemplary embodiment, the conductor conduit 44 is removably attached tothe floor box 20 by a fastener, for example a screw.

A removable barrier 46 can be positioned in the conductor conduit 44 toisolate the wiring compartments 40 if desired. For example, the barrier46 can be used to isolate power conductors or components fromcommunication or data conductors of components. In an exemplaryembodiment, the barrier 46 has a substantially L-shaped configurationwith a first leg 48 and a second leg 50 extending at an angle to thefirst leg 48. A tab 52 can extend from the second leg 50. The first leg48 extends into the conductor conduit 44 and the second leg 50 and thetab 50 extend outside of the conductor conduit 44 to allow a user toinsert or remove the barrier 46. In an exemplary embodiment, the tab 52can extend upward at an angle to the second leg 50 to make it easier fora user to manipulate the barrier 48.

Typical floor boxes run conductors through walls or underneath thecentral openings to separate the conductors from the central openings.The conductor conduit 44 running through the central opening 26 allowsfor a larger central opening 26, giving easier access to the electriccomponents positioned in the floor box 20. In an exemplary embodiment,the conductor conduit 44 has a height that is less than the height ofthe central opening 26. For example the height of the conductor conduitcan be less than ⅔, ½, or ¼ of the height of the central opening 26.Alternatively, the top surface of the conductor conduit 44 is positionedat a location beneath the upper edge of the central opening 26, forexample at ⅔, ½, or ¼ of the height of the central opening 26.

FIGS. 3-5 shows an exemplary embodiment of a 4-gang floor box 120 havinga bottom 122 and four side walls 124 at least partially defining acentral opening 126. The exemplary 4-gang floor box 120 has side walls124 that are rectangular and oriented at substantially 90 degree anglesto one another to give an overall substantially rectangularconfiguration to the floor box 120. In alternative configurations, thebottom 122 and side walls 124 can have different sizes and shapes,including curvilinear shapes, and have different orientations to changethe overall configuration of the floor box 120 to different curvilinearand rectilinear shapes.

A top plate 134 is connected to one or more of the side walls 124. Thetop plate 134 includes an outer portion 136 and one or more innerportions 138. One or more front panels 142 extends from the innerportion 138 to cover the front of one or more wiring compartments 140.The front panels 142 can be formed integrally with the top plate 134 orformed separately and connected to the top plate 134, for examplethrough mechanical fasteners such as clips, screws, snap-fits, etc. Inthis embodiment, four front panels 142 are used to create four wiringcompartments 140, with two wiring compartments 140 at each end of thefloor box 120. The wiring compartments 140 at each end can be connectedor open underneath the top plate 134 or a divider can be positionedtherebetween.

The 4-gang floor box 120 includes a dual-path conductor conduit 144 thatextends through the middle of the central opening 126 between the firstand second set of wiring compartments 140. As best shown in FIGS. 4 and5 the dual-path conductor conduit 144 includes a first channel 156 and asecond channel 158 that are separated by an interior wall 160. First andsecond barriers 146A, 146B are respectively positioned in the first andsecond channels 156, 158. The first and second channels 156, 158 provideseparate paths to isolate different conductors, for example data,communication, or power conductors.

FIG. 6 shows an exemplary embodiment of a 4-gang floor box 120 that usesa single front plate 164 for a pair of wiring compartments 140. In anexemplary embodiment, the front plate 164 conforms to a NEMA standard toreceive one or more NEMA standard outlets, such as a power or dataoutlet. The floor box 120 includes a top plate 134 connected to one ormore of the side walls 124. The top plate 134 includes an outer portion136 and one or more inner portions 138. One or more mounting flanges 166extend from the inner portion 138. A divider 168 can be positioned underthe top plate 134 to separate the wiring compartments 140. As shown inFIG. 8, the divider 168 includes a flange 170 with one or more openingsto mount the divider 168 to the front panel 164.

As shown in FIGS. 6-9, the front plate 164 includes a plurality ofopenings to receive screws or other mechanical fasteners. Some of theopenings align with the mounting flanges 166 to connect the front panel164 to the top plate 134, a pair of openings align with the openings inthe divider 168 to receive fasteners that connect the front plate 164 tothe divider 168, and other openings are positioned to connect tostandard electrical components.

FIG. 10 shows an exemplary embodiment of a 6-gang floor box 220 having abottom 222 and four side walls 224 at least partially defining a centralopening 226. The exemplary 6-gang floor box 220 has side walls 224 thatare rectangular and oriented at substantially 90 degree angles to oneanother to give an overall substantially rectangular configuration tothe floor box 220. In alternative configurations, the bottom 222 andside walls 224 can have different sizes and shapes, includingcurvilinear shapes, and have different orientations to change theoverall configuration of the floor box 220 to different curvilinear andrectilinear shapes.

One or more protrusions 232 extend from the bottom to position andretain internal components. A top plate 234 is connected to one or moreof the side walls 224. The top plate 234 includes an outer portion 236and one or more inner portions 238. One or more front panels 242 extendsfrom the inner portion 238 to cover the front of one or more wiringcompartments 240. The front panels 242 can be formed integrally with thetop plate 234 or formed separately and connected to the top plate 234,for example through mechanical fasteners such as clips, screws,snap-fits, etc. In this embodiment, six front panels 242 are used tocreate six wiring compartments 240, with two wiring compartments 240 ateach end of the floor box 220 and two wiring compartments 240 along eachside of the floor box 220. The wiring compartments 240 along the sidescan be connected or open underneath the top plate 234 or a divider canbe positioned therebetween. The 6-gang floor box 220 includes adual-path conductor conduit 244 that extends through the middle of thecentral opening 226 between the first and second set of wiringcompartments 240.

FIG. 11 shows the 6-gang floor box 220 with the top plate 234 removed.The floor box 220 includes a plurality of divider plates 272 thatseparate the wiring compartments 240. The divider plates 272 areremovably positioned between different wiring compartments 140 as neededby a series of slots, grooves, projections, fasteners, or anycombination thereof. An upward extending tab 274 is used to connect thedividers 272 to the top plate 234. For example, the tab 274 can engage aslot formed in the top plate 234 or a protrusion extending from the topplate. One or more knockouts or removable plugs 276 are provided in thedivider plates 272 to allow conductors to be selectively run in betweenwiring compartments. FIG. 12 shows an alternative embodiment of adivider plate 278 that includes breakaway regions A-H. The configurationof the divider 278 can be altered depending on the floor box or theconfiguration of the wiring compartment as needed. For example, regionsA, C, E, and G can be removed to create a narrower divider, or regions Fand H can be removed to connect adjacent wiring compartments. Theregions A-H can be separated by a frangible connection, for example ascore line or perforations.

FIGS. 13 and 14 show an exemplary embodiment of a floor box 320 that canbe configured as an 8-gang to a 10-gang floor box having a bottom 322and four side walls 324 at least partially defining a central opening326. The exemplary 10-gang floor box 220 has side walls 324 that arerectangular and oriented at substantially 90 degree angles to oneanother to give an overall substantially rectangular configuration tothe floor box 320. In alternative configurations, the bottom 322 andside walls 324 can have different sizes and shapes, includingcurvilinear shapes, and have different orientations to change theoverall configuration of the floor box 320 to different curvilinear andrectilinear shapes.

One or more protrusions 332 extend from the bottom to position andretain internal components. A top plate 334 is connected to one or moreof the side walls 324. The top plate 334 includes an outer portion 336and one or more inner portions 338. One or more slots 339 are formed inthe outer portion 336 and the inner portion 338. One or more frontpanels 342 extends from the inner portion 338 to cover the front of oneor more wiring compartments 340. The front panels 342 can be formedintegrally with the top plate 334 or formed separately and connected tothe top plate 334, for example through mechanical fasteners such asclips, screws, snap-fits, etc. In this embodiment, eight to ten frontpanels 342 are used to create eight to ten wiring compartments 340, withfour or five wiring compartments 340 along each side of the floor box320. A conductor conduit 344 can run along one or both ends of the floorbox 320. A removable barrier 346 is inserted into the conductor conduit344 and secured by a mechanical fastener. The conductor conduit 344 canextend through a side flange 352 that extends from the top plate 334.The side flange 352 is shown connected to the top plate 334 with ascrew, although other mechanical fasteners can be used or the sideflange 352 can be formed integrally with the top plate 334.

The wiring compartments 340 along the sides can be connected or openunderneath the top plate 334 or a divider 380 can be positionedtherebetween. FIGS. 15 and 16 show an exemplary embodiment of a divider380 having a first tab 382 and a second tab 384. The first and secondtabs 382, 384 extend into the slots 339 in the top plate 334. Thedividers 380 can therefore be placed or removed to isolate separatewiring compartments 340 as needed. In an alternative embodiment, thedivider 380 has a single tab 382. Instead of slots 339, the divider 380and/or the tabs 382, 384 can be placed into other removable connectingfeatures, for example in a space between two protrusions. The divider380 can also be held in place by slots formed in the side wall 324. Inanother alternative embodiment, the bottom of the divider 380 is placedbetween two protrusions on the bottom of the floor box and the first tab382 is between two protrusions extending from the top plate. A frangibleconnection, for example a score line or perforations, is provided sothat a user may adjust the size of the divider 380. Although shown usedwith the 8-gang to a 10-gang floor box, the divider 380 can be adaptedfor use with any of the floor boxes described herein.

FIGS. 17 and 18 show exemplary dividers 382A, 382B that can be used toseparate the central opening of a floor box. The dividers 382A, 382B caninclude different breakaway regions created by a frangible connection,for example a score line or perforations. The breakaway regions allow auser to adjust the configuration of the dividers 382A, 382B for use indifferent floor boxes and in different applications. FIGS. 19 and 20show the dividers used in an exemplary 2-gang floor box 20 to separatethe central opening 26 into a first portion and a second portion.

FIG. 21 shows the 2-gang floor box 20 having an exemplary knock-outplate 386. The knock-out plate 386 is removably connected to a side wall24, for example through one or more fasteners. The knock out plate 386includes a knock out 388 that can be selectively removed. If desired,the knock out plate 386 can be removed and replaced with a hub 390, forexample a 2 inch threaded hub. The hub 390 can use the same apertures asused for the knock out plate 386. In an exemplary embodiment, the knockout 388 in the knock-out plate 386 has a diameter less than the conduitin the hub 390, for example 1.25 inches. The number and location ofknock out plates 386 can vary as needed for different installation type.

As best shown in FIGS. 22 and 23, a floor box can include one or morecans 400 for holding a leveler, for example a jack screw 402. The jackscrew 402 helps adjustably position a lid assembly 404. The lid assemblycan include a cover 406 and a flange 408. The jack screw 402 includes asupport element 410, for example a nut or washer that is attached to thejack screw 402. The jack screw 402 threadably engages the can 400 sothat a user can rotate and adjust the height of the jack screw 402 andthereby position the lid assembly 404 relative to the floor box. The can400 has a counter bore sized to receive the jack screw 402 and supportelement 410. In an exemplary embodiment the can 400 has a diameter atleast twice the diameter of the jack screw 402. The can 400 and jackscrew 402 can be incorporated into any of the floor box assembliesdiscussed herein.

Various exemplary embodiments are related to components and accessoriesfor installing floor boxes. Floor boxes can be installed in any surface,including carpet, tile, raised access flooring, and concrete. FIG. 24shows another exemplary 2-gang floor box 500 having four walls 502surrounding a central opening 504. The walls 502 can include one or moreknockouts 506 that can be removed to pass wires into the floor box 500.A top plate 508 is connected to one or more of the walls 502.

The floor box 500 can also include a first cover 510 and a second cover512. The first and second covers 510, 512 can be used during variousinstallations of the floor box 500. In an exemplary embodiment, thefirst cover 510 is a metallic cover and the second cover 512 is anon-metallic temporary cover, for example made from a polymer material,although other materials can be used. The second cover 512 is releasablyconnected to the first cover 510, for example through a snap fitconnection. The second cover 512 can include one or more snap fitconnectors, for example snap fit bosses 514 extending from the bottom ofthe second cover 512 that insert into openings on the first cover 510.The bosses can include one or more cantilever beams and/or barbs toassist in retaining the second cover 512 to the first cover 510. Afterthe floor box 500 has been set in the floor, for example after aconcrete pour, the second cover 512 can be broken off or otherwiseremoved from the first cover 510. The concrete can be poured up to andover a portion of the second cover 512. The first and second covers 510,512 prevents concrete, or other flooring material, from getting into thefloor box during installation.

One or more knock outs or openings 516 can be positioned in the secondcover to allow for easy removal of the second cover 512 from the firstcover 510. A knockout or opening can also be positioned in the firstcover 510 to allow the first cover 510 to be easily removed afterinstallation. Depending on the size of the floor box, more than oneknock outs or openings 516 can be used. For example, 6 and 10-gang floorboxes can utilize two knock outs or openings 516.

FIG. 25 shows another exemplary embodiment of a 4-gang floor box 600having a plurality of side walls 602. The floor box includes a cover 604with a knock out 606 to assist in removing the cover 602 afterinstallation. In an exemplary embodiment the cover 604 is metallic. Aremovable top plate 608 is connected to the side walls 602 and removabledividers 610 are selectively positioned to separate wiring compartments.FIG. 26 shows the 4-gang floor box 600 installed in a carpeted floor.

The foregoing detailed description of the certain exemplary embodimentshas been provided for the purpose of explaining the general principlesand practical application, thereby enabling others skilled in the art tounderstand the disclosure for various embodiments and with variousmodifications as are suited to the particular use contemplated. Thisdescription is not necessarily intended to be exhaustive or to limit thedisclosure to the exemplary embodiments disclosed. Any of theembodiments and/or elements disclosed herein may be combined with oneanother to form various additional embodiments not specificallydisclosed. Accordingly, additional embodiments are possible and areintended to be encompassed within this specification and the scope ofthe appended claims. The specification describes specific examples toaccomplish a more general goal that may be accomplished in another way.

As used in this application, the terms “front,” “rear,” “upper,”“lower,” “upwardly,” “downwardly,” and other orientational descriptorsare intended to facilitate the description of the exemplary embodimentsof the present application, and are not intended to limit the structureof the exemplary embodiments of the present application to anyparticular position or orientation. Terms of degree, such as“substantially” or “approximately” are understood by those of ordinaryskill to refer to reasonable ranges outside of the given value, forexample, general tolerances associated with manufacturing, assembly, anduse of the described embodiments.

What is claimed:
 1. A floor box for housing electrical components comprising: a bottom and a plurality of walls extending from the bottom to at least partially define an interior and to at least partially define a central opening accessible to a user; a top plate, having an inner portion at least partially defining a first wiring compartment facing the central opening and a second wiring compartment facing the central opening, connected to at least one of the plurality of walls; a first panel positioned in front of the first wiring compartment; a second panel positioned in front of the second wiring compartment; a first cover positioned over the top plate and covering the central opening; and a second cover positioned over the first installation cover.
 2. The floor box of claim 1, wherein the second cover is releasably secured to the first cover
 3. The floor box of claim 1, wherein the second cover is snap-fit to the first cover.
 4. The floor box of claim 3, wherein the snap-fit connection includes a set of barbs and a set of openings.
 5. The floor box of claim 1, wherein the second cover includes a knock out.
 6. The floor box of claim 1, wherein the first cover includes a knock out.
 7. The floor box of claim 1, wherein a conductor conduit extends between the first compartment and the second compartment.
 8. The floor box of claim 7, wherein a removable barrier is positioned in the conductor conduit, wherein the removable barrier includes a first leg, a second leg extending from the first leg, and a tab extending from the second leg.
 9. The floor box of claim 1, wherein the first cover includes a metallic material and the second cover includes a polymer material.
 10. A method of installing a floor box comprising: positioning a floor box in an open space, the floor box having a bottom, a plurality of walls extending from the bottom, a top plate connected to at least one of the walls, a first installation cover positioned over the top plate and a second installation cover releasably connected to the first installation cover; removing the second installation cover from first installation cover; and removing the first installation cover from the floor box.
 11. The method of claim 10, wherein removing the second installation cover from the first installation cover includes disengaging a snap fit connection.
 12. The method of claim 10, wherein removing the second installation cover from the first installation cover includes removing a knock out from the second installation cover.
 13. The method of claim 10, wherein removing the first installation cover includes removing a knock out from the first installation cover.
 14. The method of claim 10, further comprising pouring concrete around the floor box up to the second cover prior to removing the second cover.
 15. The method of claim 10, further comprising removing a knock-out from one of the plurality of walls to create a conduit.
 16. The method of claim 15, further comprising inserting a utility connection through the conduit.
 17. The method of claim 16, wherein the utility connection includes an electrical conductor or a data cable.
 18. The method of claim 10, wherein the second cover is removed from the first cover prior to positioning the floor box.
 19. The method of claim 10, further comprising placing a divider in the floor box to create a first compartment.
 20. The method of claim 19, wherein the divider includes a first region and a second region separated from the first region by a frangible connection. 